Helical distortion in tryptophan- and lysine-anchored membrane-spanning alpha-helices as a function of hydrophobic mismatch: A solid-state deuterium NMR investigation using the geometric analysis of labeled alanines method

by Daily, A. E.; Greathouse, D. V.; van der Wel, P. C. A.; Koeppe, R. E.

We used solid-state deuterium NMR spectroscopy and geometric analysis of labeled alanines to investigate the structure and orientation of a designed synthetic hydrophobic, membrane-spanning alpha-helical peptide that is anchored within phosphatidylcholine (PC) bilayers using both Trp and Lys side chains near the membrane/water interface. The 23-amino-acid peptide consists of an alternating Leu/Ala core sequence that is expected to be alpha-helical, flanked by aromatic and then cationic anchors at both ends of the peptide: acetyl-GKALW(LA) (6)LWLAKA-amide (KWALP23). The geometric analysis of labeled alanines method was elaborated to permit the incorporation and assignment of multiple alanine labels within a single synthetic peptide. Peptides were incorporated into oriented bilayers of dilauroyl- (di-C12:0-), dimyristoyl- (di-C14:0-), or dioleoyl- (diC18:1c-) PC. In the C12:0 and C14:0 lipids, the H-2-NMR quadrupolar splittings for the set of six core alanines could not be fit to a canonical undistorted alpha-helix. Rather, we found that a model containing a helical distortion, such as a localized discontinuity or '' kink '' near the peptide and bilayer center, could fit the data for KWALP23 in these shorter lipids. The suggestion of helix distortion was confirmed by H-2-NMR spectra for KWALP23 in which Leu(8) was changed to deuterated Ala(8). Further analysis involving reexamination of earlier data led to a similar conclusion that acetyl-GWW( LA)(8)LWWA-amide (WALP23) is distorted in dilauroyl-PC, allowing significant improvement in the fitting of the H-2-NMR results. In contrast, WALP23 and KWALP23 are well represented as undistorted alpha-helices in dioleoyl-PC, suggesting that the distortion could be a response to hydrophobic mismatch between peptide and lipids.

Biophysical Journal
Start Page
1542-0086; 0006-3495